In a memory card connector, a pivot shaft member is pivotally provided in a front side of the insertion hole for memory card for controlling the gap of the insertion hole for the insertion of a different memory card. The pivot shaft member has a protruding portion protruded from the periphery, and a guide block extending from the protruding portion for guiding the insertion of a thin type memory card into the insertion hole in horizontal. insertion of a thick memory card into the insertion hole forces the protruding portion to rotate the pivot shaft and to hold down the front row of terminals in the memory card connector, preventing deformation or damage of the terminals due to improper insertion of the memory card into the insertion hole.
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1. An universal memory card connector comprising an insulative terminal holder block, multiple sets of terminals arranged in rows and mounted in said insulative terminal holder block for contacting one of a set of memory cards, and a top cover covering said insulative terminal holder block and defining with said insulative terminal holder block an insertion hole for inserting one of said memory cards into said insulative terminal holder block to contact one of said multiple sets of terminals, wherein a pivot shaft member positions in an elongated recess portion and is pivotally coupled to said insulative terminal holder block along a front side of said insertion hole and rotatable relative to said insulative terminal holder block to control a gap of said insertion hole for the insertion of a different memory car, said pivot shaft member having at least one protruding portion protruding from a periphery thereof, the protruding portion defining an inner part arranged to engage front ends of a first row of resilient terminals located proximate to the pivot shaft member and the front side of the insertion hole; wherein the front ends extend into the elongated recess portion;
wherein the pivot shaft member is pivotable between an upright position and a direction toward the first row of terminals such that when a memory card is inserted into the connector, the pivot shaft member pivots from the upright position to press the inner part against front ends of the first row terminals, and when the memory card is removed from the connector, the resilient of the first row of the terminals urge the pivot shaft member in the upright position;
wherein said pivot shaft member comprises at least one guide block extended outwardly from the protruding portion and having a guiding surface.
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3. The universal memory card connector as claimed in
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9. The universal memory card connector as claimed in
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(a) Field of the Invention
The present invention relates to a memory card connector and more particularly, to a universal memory card connector, which has a pivot shaft member pivotally provided in the front side of the insertion hole for memory card and rotatable between two positions to control the gap of the insertion hole for the insertion a different type of memory card.
(b) Description of the Prior Art
Various different types of memory cards, such as SD memory card, MMC and MMC4.0 memory card, MS memory card, XD memory card, SM memory card, mini SD memory card, RS-MMC memory card, RS-MMC4 memory card, and etc are commercially available. These memory cards have different sizes. Therefore, universal memory card connectors are developed for receiving any of a variety of memory cards.
A conventional universal memory card connector is known comprising a metal top cover, a terminal holder block, and multiple metal conducting terminals. The universal memory card has a common insertion hole for the insertion of any of a variety of memory cards. The common insertion hole has a stepped structure. When inserting a thin type memory card (for example, mini SD memory card) into the common insertion hole, the thin type memory card may be tilted or biased toward the left or right side and forced to hit the row of metal conducting terminals at the front side of the terminal holder block, causing the metal conducting terminals to be curved or damaged.
The applicant of the present invention filed an application for patent on May 11, 2005 under application Ser. No. 11/126,222, entitled “Universal memory card adapter having movable door”, that eliminates the aforesaid drawback. According to this design, the memory card adapter comprises a movable door horizontally pivotally mounted in the stepped receiving open side thereof to control insertion of different memory cards. The movable door has a doorplate pivotally mounted in the stepped receiving open side and dividing the stepped receiving open side into an open type insertion slot and a sheltered insertion slot to match the insertion of different memory cards, a spring member for holding the doorplate in a normal close position, and a control spring strip, which normally stops the doorplate in the normal close position and is disconnected from the doorplate upon insertion of a matching memory card. This design is functional, however it uses a number of parts, complicating the installation and increasing the cost.
The present invention has been accomplished under the circumstances in view. According to one aspect of the present invention, the memory card connector comprises a pivot shaft member pivotally disposed in the front side of the insertion hole for memory card. The pivot shaft member has a protruding portion, and a guide block extending from the protruding portion. The guide block has a horizontally extending guide surface. When inserting a thin type memory card into the insertion hole, the guide surface guides the memory card into the insertion hole in horizontal, preventing biasing. When inserting a thick memory card into the insertion hole, the memory card will touch the protruding portion, causing the pivot shaft member to rotate through an angle, and the inner part of the protruding portion will be forced downwards against the front row of terminals to prevent damage. When ejecting the inserted memory card, the front row of terminals imparts a spring force to the pivot shaft member, rotating the pivot shaft member in the reversed direction to its former position. Because the invention uses a small number of parts, the memory card connector can easily and quickly be assembled. Further, the simple structural design greatly reduces the cost of the memory card connector.
According to another aspect of the present invention, the pivot shaft member comprises a stop block at one end of the protruding portion, and the electrically insulative terminal holder block of the universal memory card connector comprises a flange for stopping the stop block to hold the pivot shaft member in such a position that the guide surface of the guide block is kept in horizontal for guiding a thin type memory card into the insertion hole in horizontal.
According to still another aspect of the present invention, the electrically insulative terminal holder block comprises a recessed receptacle for receiving the guide block of the pivot shaft member.
Referring to
The top cover 1, as shown in
The terminal holder block 2, as shown in
The pivot shaft member 3, as shown in
By means of the arrangement of the pivot shaft member 3 in the front side of the insertion hole 11, the insertion hole 11 is controlled by the pivot shaft member 3 for the insertion of different thickness of memory cards 4 and 5 selectively. Because the guide surface 331 of the pivot shaft member 3 is kept in horizontal or close to horizontal, it guides a thin type memory card (for example, mini SD memory card) 4 into the insertion hole 11 horizontally (see
When ejecting the memory card 5 out of the insertion hole 11 of the memory card connector after a use, the terminals 211 impart a spring force to the pivot shaft member 3, rotating the pivot shaft member 3 in the reversed direction to its former position. Because the invention uses a small number of parts, the memory card connector can easily and quickly be assembled. Further, the simple structural design greatly reduces the cost of the memory card connector.
Further, when the pivot shaft member 3 is rotated by the inserted memory card 5 to force the inner part 321 of the protruding portion 32 against the front row of terminals 211 toward the inside of the respective terminal grooves 212, the recessed receptacle 23 of the terminal holder block 2 provides a space for receiving the guide block 33 of the pivot shaft member 3.
As stated above, the pivot shaft member 3 is pivotally disposed in the front side of the insertion hole 11 to control the gap of the insertion hole 11 for the insertion of a thin type memory card 4 or thick memory card 5. When inserting a thin type memory card 4 into the insertion hole 11, the guide surface 331 of the guide block 33 of the pivot shaft member 3 guides the thin type memory card 4 into the insertion hole 11 in horizontal, prohibiting biasing of the inserted memory card 4. When inserting a thick memory card 5 into the insertion hole 11, the memory card 5 will touch the protruding portion 32 at first, causing rotation of the pivot shaft member 3 through an angle, so that the inner part 321 of the protruding portion 32 will force the front row of terminals 211 into the inside of the respective terminal grooves 212, preventing deformation or damage of the terminals 211 due to improper insertion of the memory card into the insertion hole 11.
According to the aforesaid first embodiment shown in
A prototype of memory card connector has been constructed with the features of
Although particular embodiments of the invention have been described in detail for purposes of illustration, various modifications and enhancements may be made without departing from the spirit and scope of the invention. Accordingly, the invention is not to be limited except as by the appended claims.
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
May 18 2007 | YEN, MING-HUI | CHANT SINCERE CO , LTD | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 019460 | /0410 | |
May 18 2007 | LAI, CHUN-MING | CHANT SINCERE CO , LTD | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 019460 | /0410 | |
Jun 11 2007 | Chant Sincere Co., Ltd. | (assignment on the face of the patent) | / |
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